CN219173532U - Conveying line device - Google Patents

Abstract

The utility model discloses a conveyor line device, comprising: a first conveying unit; the conveying units are respectively arranged at two sides of the first conveying unit; a stop assembly, the stop assembly comprising: the first stop device is arranged on two sides of the first conveying unit, and is movable along the conveying direction of the first conveying unit and used for stopping or avoiding. According to the conveying condition, the stopping state or the avoiding state of the first stopping device is regulated and controlled, when the rear section of the conveying line fails, and when materials are difficult to consume, the excessive materials can be switched to the first conveying unit through the conveying unit, so that the utilization rate of the materials is improved, and the productivity is further improved; when the front section of the conveying line breaks down, the material supply of the rear section is insufficient, the excessive material on the first conveying unit is switched to the rear section of the conveying line by the conveying unit, the stop waiting time of the conveying line is shortened, the material switching between the main lines of conveying is effectively solved, and the purpose of reasonably distributing the material is achieved.

Description

Conveying line device

Technical Field

The utility model relates to the technical field of production line conveying, in particular to a conveying line device.

Background

The main function of the conveyor line body is to convey the objects and to decompose a production repetition process into a number of sub-processes during the conveying process, the former sub-process creating execution conditions for the next sub-process, each process being possible to be carried out simultaneously with the other sub-processes. In short, "functional decomposition" is performed sequentially in space and in parallel with each other in time. Therefore, the product quality is ensured, the waste in any link is reduced, and the pull-type on-time production is finally realized.

In the related art, a positioning piece is arranged on a production line and used for unlocking or locking the movement of the carrier, and when the carrier moves to a processing station for processing, the positioning piece can lock the movement of the carrier, so that the carrier is ensured not to shift in the processing process. However, the locating piece is only used for fixing materials, so that line replacement transportation of the materials cannot be realized, and the conveying efficiency is low.

Disclosure of Invention

The present utility model aims to solve at least one of the technical problems existing in the prior art. Therefore, the utility model provides a conveying line device, wherein a movable first stop device is designed to stop or avoid, so that the problem of material switching between main lines of conveying can be solved, the purpose of reasonably distributing materials is achieved, and the conveying efficiency is improved.

The conveying line device according to the embodiment of the utility model comprises: a first conveying unit; the conveying units are respectively arranged at two sides of the first conveying unit; a stop assembly, the stop assembly comprising: the first stop device is arranged on two sides of the first conveying unit, and the first stop device is movable along the conveying direction of the first conveying unit and used for stopping or avoiding.

According to the conveying line device provided by the embodiment of the utility model, the movable first stopping devices are arranged on the two sides of the first conveying unit, so that the stopping state or the avoiding state of the first stopping devices can be regulated and controlled according to the conveying condition, when the rear section of the conveying line fails, the excessive materials are difficult to consume, the conveying unit can be used for switching the excessive materials to the first conveying unit, wherein the first stopping devices firstly buffer stopping and then avoid, and the materials are ensured to be conveyed to the first conveying unit, so that the utilization rate of the materials is improved, and the productivity is further improved; similarly, when the front section of the conveying line fails, the rear section of the conveying line is insufficient in material supply, and at the moment, excessive materials on the first conveying unit can be switched to the rear section of the conveying line through the conveying unit, wherein the first stop device is used for avoiding, so that the materials on the first conveying unit can be conveyed to the conveying line through the conveying unit, the stop waiting time of the conveying line is shortened, and the productivity is improved. The first stop device effectively solves the problem of material switching among main lines of conveying, and achieves the purpose of reasonable material distribution.

According to some embodiments of the utility model, at least two first stoppers are respectively disposed on two sides of the first conveying unit, and the at least two first stoppers are relatively movable along the conveying direction of the first conveying unit so as to jointly stop the material from the conveying unit.

According to some embodiments of the utility model, the stop assembly further comprises: the first driving piece drives the first stopper to move along the conveying direction of the first conveying unit.

According to some embodiments of the utility model, the first conveying unit is provided with a first guiding part at two sides, the first stopper is provided with a second guiding part, the first guiding part is one of a guide rail and a sliding block, the second guiding part is the other of the guide rail and the sliding block, and the guide rail and the sliding block are in guiding fit.

According to some embodiments of the utility model, the first stopper comprises: the first stop main body is matched with the side edge of the first conveying unit in a moving mode, and the first stop plate is arranged on one side of the first stop main body, which faces the center of the first conveying unit, and protrudes out of the first stop main body, so that the material of the conveying unit is conveyed to the first conveying unit and then stopped.

According to some embodiments of the utility model, the first conveying unit comprises: the first jacking component and the first traversing component are arranged on the first conveying unit and are opposite to the conveying unit, the first jacking component is used for jacking the first traversing component to be in the same transmission horizontal plane with the conveying unit, and the conveying direction of the first traversing component is the same as the conveying direction of the conveying unit and is used for conveying materials between the conveying unit and the first conveying unit.

According to some embodiments of the utility model, the first traversing assembly comprises: the first transmission piece is arranged on the first support frame and is in transmission connection with the second driving piece, and the second driving piece drives the first transmission piece to rotate and the rotation direction is the same as the conveying direction of the conveying unit.

According to some embodiments of the utility model, the first traversing assembly further comprises: the first limiting plate is arranged on the outer side of the first supporting frame relative to the first supporting frame and used for limiting materials conveyed between the conveying unit and the first conveying unit.

According to some embodiments of the utility model, the first jacking assembly comprises: the first base plate is driven by the third driving piece to be lifted to be in the same transmission horizontal plane with the transmission unit, and the first base plate is provided with the first transverse moving assembly.

According to some embodiments of the utility model, the first conveying unit comprises: the rolling direction of the plurality of first short rollers is the same as the conveying direction of the first conveying unit, and the plurality of first short rollers are respectively arranged on two sides of the first conveying unit so as to form a space for placing the first jacking component and the first transverse moving component on the first conveying unit.

According to some embodiments of the utility model, the first conveying unit further comprises: the device comprises a fourth driving piece, at least two first line bodies and a plurality of first long rollers, wherein at least two first line bodies are oppositely arranged, the first long rollers are connected between the first line bodies, the first short rollers are respectively arranged at least two first line bodies, the fourth driving piece drives the first long rollers and the first short rollers to roll along the conveying direction of the first conveying unit, and the first stop device is arranged on the first line bodies.

According to some embodiments of the utility model, the stop module further comprises: the second stop device is arranged on the first conveying unit and used for stopping materials on the first conveying unit.

According to some embodiments of the utility model, the conveyor line assembly further comprises: and the second conveying unit is arranged on one side of the conveying unit and is used for conveying materials between the first conveying unit and the second conveying unit.

According to some embodiments of the utility model, the stop assembly further comprises: and the third gear stopper is fixedly arranged on one side, far away from the conveying unit, of the second conveying unit and is used for stopping materials from the conveying unit.

According to some embodiments of the utility model, the stop assembly further comprises: and the fourth gear stopper is fixedly arranged on the second conveying unit and is used for stopping the materials from the second conveying unit.

According to some embodiments of the utility model, the second conveying unit comprises: the second jacking component and the second transverse moving component are arranged on the second conveying unit and are opposite to the conveying unit, the second jacking component is used for jacking the second transverse moving component to be in the same transmission horizontal plane with the conveying unit, and the conveying direction of the second transverse moving component is the same as the conveying direction of the conveying unit and is used for conveying materials between the conveying unit and the second conveying unit.

According to some embodiments of the utility model, the second conveying unit comprises: the rolling directions of the second short rollers are the same as the conveying direction of the second conveying unit, and the second short rollers are respectively arranged on two sides of the second conveying unit so as to form a space for installing the second jacking component and the second traversing component on the second conveying unit.

According to some embodiments of the utility model, the first conveying unit is at least one, the second conveying unit is at least two, the second conveying units are arranged at two sides of the first conveying unit, and the conveying unit is arranged between the first conveying unit and the second conveying unit for conveying materials between the conveying unit and the second conveying unit.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model.

Drawings

The foregoing and/or additional aspects and advantages of the utility model will become apparent and may be better understood from the following description of embodiments taken in conjunction with the accompanying drawings in which:

FIG. 1 is a perspective view of a conveyor line assembly according to an embodiment of the present utility model;

FIG. 2 is an elevation view of a conveyor line assembly according to an embodiment of the present utility model;

FIG. 3 is a top view of a conveyor line assembly according to an embodiment of the present utility model;

FIG. 4 is a side view of a conveyor line assembly according to an embodiment of the present utility model;

fig. 5 is a schematic structural view of a first conveying unit and a transfer unit according to an embodiment of the present utility model;

fig. 6 is a schematic structural view of a second conveying unit and a transfer unit according to an embodiment of the present utility model.

Reference numerals:

1. a first conveying unit; 11. a first guide part; 12. a first jacking assembly; 121. a third driving member; 122. a first base plate; 13. a first traversing assembly; 131. a second driving member; 132. a first support frame; 133. a first transmission member; 134. a first limiting plate; 14. a first short roller; 15. a fourth driving member; 16. a first wire body; 17. a first long roller; 18. a first support plate; 19. a first through groove;

2. a transfer unit; 21. an eighth driving member; 22. a third wire body; 23. a third long roller;

31. a first stopper; 311. a second guide part; 312. a first stop body; 313. a first stop plate;

32. a second stopper;

33. a third gear stopper; 331. a third stop main body; 332. a third stop plate;

34. a fourth gear stopper;

4. a first driving member;

5. a second conveying unit; 51. a second jacking assembly; 511. a fifth driving member; 512. a second base plate; 52. a second traversing assembly; 521. a sixth driving member; 522. a second support frame; 523. a second transmission member; 524. a second limiting plate; 53. a second short roller; 54. a seventh driving member; 55. a second wire body; 56. a second long roller; 57. a second support plate; 58. and a second through slot.

Detailed Description

Embodiments of the present utility model will be described in detail below, by way of example with reference to the accompanying drawings.

A conveyor line assembly according to an embodiment of the present utility model is described below with reference to fig. 1-6.

As shown in fig. 1 to 5, the conveyor line device includes: the first conveying unit 1 and the conveying unit 2, the conveying unit 2 being provided on both sides of the first conveying unit 1, respectively.

In the present embodiment, the conveying direction of the first conveying unit 1 is set perpendicular to the conveying direction of the conveying unit 2. Wherein, a coordinate system is defined for the conveyor line device, the height direction of the conveyor line device is taken as the Z-axis direction of the conveyor line device, the conveying direction of the first conveying unit 1 is taken as the X-axis direction of the conveyor line device, and the conveying direction of the conveying unit 2 is taken as the Y-axis direction of the conveyor line device.

The conveyor line device further includes: stop the subassembly, stop the subassembly and include: the first stopping device 31 is arranged on two sides of the first conveying unit 1, and the first stopping device 31 is movable along the conveying direction of the first conveying unit 1 and is used for stopping or avoiding. So, the both sides of first conveying unit 1 all are equipped with first fender stopper 31, when the conveying unit 2 of arbitrary one side of first conveying unit 1 will be carried the material to first conveying unit 1, then first fender stopper 31 moves along the direction of delivery of first conveying unit 1 to move to can buffer and keep off stopping the material from conveying unit 2, when first fender stopper 31 keeps off stopping the material, then start the relevant jacking part of first conveying unit 1 and go up the unloading, when first fender stopper 31 dodges the material, can make the material arrive on the first conveying unit 1 or reach the conveying unit 2 of opposite side through first conveying unit 1.

Therefore, by arranging the movable first stopping devices 31 on two sides of the first conveying unit 1, the stopping state or avoiding state of the first stopping devices 31 can be regulated and controlled according to conveying conditions, when the rear section of the conveying line fails, excessive materials are difficult to consume, the conveying unit 2 can be used for switching the excessive materials to the first conveying unit 1, wherein the first stopping devices 31 firstly buffer stopping and then avoid, and the materials are ensured to be conveyed to the first conveying unit 1, so that the utilization rate of the materials is improved, and the productivity is further improved; similarly, when the front section of the conveying line fails, the material supply of the rear section is insufficient, and at the moment, the excessive material on the first conveying unit 1 can be switched to the rear section of the conveying line through the conveying unit 2, wherein the first stop device 31 is used for avoiding, so that the material on the first conveying unit 1 is conveyed to the conveying line through the conveying unit 2, and the shutdown waiting time of the conveying line is shortened, and the productivity is improved. The first stop 31 effectively solves the problem of material switching among main lines of conveying, and achieves the purpose of reasonable material distribution.

As shown in fig. 5, at least two first stoppers 31 are respectively provided on both sides of the first conveying unit 1, and the at least two first stoppers 31 are relatively movable in the conveying direction of the first conveying unit 1 to jointly stop the material from the conveying unit 2.

That is, at least two first stoppers 31 are disposed on either side of the first conveying unit 1, when the conveying unit 2 is about to convey the material to the first conveying unit 1, the at least two first stoppers 31 move along the direction approaching each other to buffer the material of the conveying unit 2 together, when stopping the material, the relevant lifting members of the first conveying unit 1 are started to perform loading and unloading, and then the at least two first stoppers 31 move along the direction separating from each other to make the material smoothly reach the first conveying unit 1 or reach the conveying unit 2 on the other side through the first conveying unit 1. Similarly, when the material on the first conveying unit 1 needs to be conveyed to each conveying line by the conveying unit 2, the switching of the material can be also achieved by moving the first stopper 31.

Wherein, keep off and stop the subassembly and still include: the first driving member 4, the first driving member 4 driving the first stopper 31 to be movable in the conveying direction of the first conveying unit 1. In this way, the first stopper 31 is driven to move in the conveying direction of the first conveying unit 1 by the first driving member 4 to achieve stopping or avoidance of the first stopper 31.

In this embodiment, the first driving member 4 may be an air cylinder, a motor, or the like, for example, an air cylinder, and the first stopper 31 may be driven to move by the telescopic movement of the air cylinder push rod.

The first guide portions 11 are provided on both sides of the first conveying unit 1, the second guide portions 311 are provided on the first stopper 31, the first guide portions 11 are one of a guide rail and a slider, and the second guide portions 311 are the other of the guide rail and the slider, and the guide rail and the slider are in guide fit. Specifically, as shown in fig. 5, the first guiding portion 11 is a linear guide rail, the second guiding portion 311 is a slider, and the first stopper 31 can move linearly on the guide rail through the slider, so as to ensure movement smoothness and stability.

In some embodiments, the first stopper 31 includes: the first stopping body 312 and the first stopping plate 313, the first stopping body 312 is movably matched with the side edge of the first conveying unit 1, the first stopping plate 313 is arranged on one side of the first stopping body 312, which faces the center of the first conveying unit 1, and is arranged in a protruding mode relative to the first stopping body 312 so as to stop after the materials of the conveying unit 2 are conveyed to the first conveying unit 1. In this way, the first stopping main body 312 moves on the side of the first conveying unit 1, the first stopping plate 313 is disposed on the side of the first stopping main body 312 facing the center of the first conveying unit 1, and after the conveying unit 2 on one side of the first conveying unit 1 completely conveys the material onto the first conveying unit 1, the material is stopped and matched with the first stopping plate 313 on the other side of the first conveying unit 1, so that the buffering and positioning of the material on the first conveying unit 1 can be ensured; or, the material is avoided by the first stop plate 313 at the other side of the first conveying unit 1, so that the material can be ensured to be conveyed to the conveying unit 2 at the other side through the first conveying unit 1.

Referring to fig. 1, the material is generally mounted on a tray, and a stop portion is provided on the tray and can cooperate with the first stop plate 313 to perform a buffering and positioning function.

Further, the first conveying unit 1 includes: the first jacking component 12 and the first traversing component 13, the first jacking component 12 and the first traversing component 13 are arranged on the first conveying unit 1 and are opposite to the conveying unit 2, the first jacking component 12 is used for jacking the first traversing component 13 to be in the same transmission horizontal plane with the conveying unit 2, and the conveying direction of the first traversing component 13 is the same as the conveying direction of the conveying unit 2 and is used for conveying materials between the conveying unit 2 and the first conveying unit 1.

That is, the first lifting component 12 and the first traversing component 13 are disposed on the first conveying unit 1, when the material is conveyed between the first conveying unit 1 and the conveying unit 2, the first lifting component 12 is started to lift the first traversing component 13 to the same transmission level as the conveying unit 2, and then the first traversing component 13 is started to make the conveying direction of the first traversing component be the same as the conveying direction of the conveying unit 2, so that the material is conveyed between the conveying unit 2 and the first conveying unit 1, and flexible switching of the material is realized.

When the conveying unit 2 conveys the materials to the first conveying unit 1, the first stopper 31 moves to stop the materials of the conveying unit 2, so that a buffering and positioning effect is achieved; during buffering and positioning, the first jacking component 12 jacks up the first traversing component 13 to be in the same transmission horizontal plane with the conveying unit 2, then the first traversing component 13 is started to enable the conveying direction of the first traversing component to be the same as that of the conveying unit 2, and then the first stopper 31 moves to be capable of avoiding materials of the conveying unit 2 again, so that the materials of the conveying unit 2 can be conveyed to the first conveying unit 1, and flexible switching of the materials is achieved.

When the first conveying unit 1 needs to convey materials to other conveying lines through the conveying unit 2, the first stop device 31 moves to the position where the materials can be avoided, and the materials can be conveyed to other conveying lines smoothly through the cooperation of the first jacking component 12 and the first traversing component 13.

In some embodiments, the first traversing assembly 13 comprises: the second driving member 131, the first supporting frame 132 and the first transmission member 133, the first transmission member 133 is disposed on the first supporting frame 132 and is in transmission connection with the second driving member 131, the second driving member 131 drives the first transmission member 133 to rotate, and the rotation direction is the same as the conveying direction of the conveying unit 2.

That is, the first driving member 133 is mounted on the first supporting frame 132, and the first driving member 133 is driven to rotate by the second driving member 131 such that the rotation direction thereof is the same as the conveying direction of the conveying unit 2, so that the material transfer between the conveying unit 2 and the first conveying unit 1 is achieved. Specifically, the first transmission member 133 may be a driving wheel or a conveyor belt, and the second driving member 131 may be a traverse motor.

Preferably, the number of the first supporting frames 132 is at least two, and the at least two first supporting frames 132 are used for supporting the conveying materials.

And, the first traversing assembly 13 further includes: the first limiting plate 134 is disposed outside the first supporting frame 132 opposite to the first supporting frame 132, so as to limit the material transferred between the transferring unit 2 and the first conveying unit 1. Therefore, the outer side of the first supporting frame 132 is provided with the first limiting plate 134 opposite to the first supporting frame, and when the first transmission piece 133 on the first supporting frame 132 conveys materials, the first limiting plate 134 can limit the side edges of the materials and prevent the materials from shifting.

In some embodiments, the first jacking assembly 12 includes: the third driving piece 121 and the first bottom plate 122, the third driving piece 121 drives the first bottom plate 122 to lift to be in the same transmission horizontal plane with the conveying unit 2, and the first bottom plate 122 is provided with the first traversing assembly 13.

That is, the first traversing assembly 13 is mounted on the first bottom plate 122, and the third driving member 121 drives the first bottom plate 122 to lift up, so as to drive the first traversing assembly 13 to lift up to the same transmission level as the transmission unit 2. In addition, the first conveying unit 1 further includes a first shoe such that the third driving member 121 is mounted on the first shoe.

Further, the first conveying unit 1 includes: the plurality of first short rollers 14, the rolling direction of the plurality of first short rollers 14 is the same as the conveying direction of the first conveying unit 1, and the plurality of first short rollers 14 are respectively disposed at both sides of the first conveying unit 1 to form a space for placing the first lifting assembly 12 and the first traversing assembly 13 in the first conveying unit 1.

That is, the plurality of first short rollers 14 are provided on both sides of the first conveying unit 1, respectively, so that a space for placing the first lifting assembly 12 and the first traversing assembly 13 can be formed in the first conveying unit 1, so that the first lifting assembly 12 and the first traversing assembly 13 can work in cooperation with the conveying unit 2, and conveying work on the first conveying unit 1 can be ensured.

It should be noted that, when the material does not need to be conveyed, the first jacking component 12 and the first traversing component 13 are located below the plurality of first short rollers 14, and the conveying unit 2 is located above the plurality of first short rollers 14; when the material needs to be conveyed, the first lifting assembly 12 needs to lift the first traversing assembly 13 to the same height as the conveying unit 2.

In addition, one end of the first short roller 14 is movably connected to the first wire body 16, and the other end is supported by the first support plate 18 to ensure the rolling stability of the first short roller 14, and the first support plate 18 is mounted on the first base, and the first bottom plate 122 is provided with the first through groove 19, so that the first support plate 18 passes through the first through groove 19, and when the first jacking component 12 jacks up the first bottom plate 122, interference between the first bottom plate 122 and the first support plate 18 can be avoided.

Specifically, the first conveying unit 1 further includes: the fourth driving piece 15, at least two first line bodies 16 and a plurality of first long idler wheels 17, at least two first line bodies 16 are oppositely arranged, a first long idler wheel 17 is connected between at least two first line bodies 16, a plurality of first short idler wheels 14 are oppositely arranged on at least two first line bodies 16 respectively, the fourth driving piece 15 drives the first long idler wheels 17 and the first short idler wheels 14 to roll along the conveying direction of the first conveying unit 1, and the first stop 31 is arranged on the first line bodies 16.

That is, at least two first wire bodies 16 are disposed opposite to each other and extend along the X-axis direction, a first long roller 17 is movably connected between the at least two first wire bodies 16, and a plurality of first short rollers 14 are disposed opposite to the at least two first wire bodies 16, so that a section of the first conveying unit 1 where the plurality of first short rollers 14 are disposed is a material switching point, and the fourth driving member 15 can drive the first long roller 17 and the first short roller 14 to roll along the X-axis direction of the first conveying unit 1, so as to realize material conveying on the first conveying unit 1.

The first stopper 31 is provided on the first wire 16 such that the first stopper 31 is movable on the first wire 16.

Furthermore, the stop assembly further comprises: a second stopper 32, the second stopper 32 being provided in the first conveying unit 1 for stopping the material on the first conveying unit 1. In this way, the second stopper 32 is disposed in the first conveying unit 1, so that when the first conveying unit 1 needs to convey the material to the conveying unit 2, the second stopper 32 stops the material on the first conveying unit 1 first, and the first lifting assembly 12, the first traversing assembly 13 and the first stopper 31 cooperate to realize flexible switching of the material.

As shown in connection with fig. 6, the conveyor line assembly further includes: and a second conveying unit 5, the second conveying unit 5 being provided at one side of the conveying unit 2, the conveying unit 2 being configured to convey the material between the first conveying unit 1 and the second conveying unit 5. So, the second conveying unit 5 sets up in conveying unit 2 one side of keeping away from first conveying unit 1, through conveying unit 2 like this, can be at first conveying unit 1 and second conveying unit 5 conveying material, realized the transmission of material each other between the transfer chain mainline, improve material utilization ratio.

Wherein, keep off and stop the subassembly and still include: and a third gear stopper 33, wherein the third gear stopper 33 is fixedly arranged on one side of the second conveying unit 5 away from the conveying unit 2 and is used for stopping the materials from the conveying unit 2. In this way, a fixed third stop 33 is provided on the side of the second conveying unit 5 remote from the conveying unit 2, so that after the material of the first conveying unit 1 is completely conveyed to the second conveying unit 5 by the conveying unit 2, the third stop 33 can buffer and position the material.

Specifically, the third gear stopper 33 includes a third gear stopper body 331 and a third gear stopper plate 332, and the third gear stopper plate 332 is provided at a side of the third gear stopper body 331 facing the conveying unit 2 and is provided to protrude with respect to the third gear stopper body 331 to perform gear stopping after the material of the conveying unit 2 is transferred to the second conveying unit 5. After the conveying unit 2 completely conveys the material to the second conveying unit 5, the third stop plate 332 on the second conveying unit 5 is matched with the material stop, so that the material can be ensured to be positioned on the second conveying unit 5 in a buffering way.

Furthermore, the stop assembly further comprises: and a fourth gear stopper 34, wherein the fourth gear stopper 34 is fixedly arranged on the second conveying unit 5 and is used for stopping the material from the second conveying unit 5. In this way, the fourth stopper 34 is disposed in the second conveying unit 5, so that when the second conveying unit 5 needs to convey the material to the conveying unit 2, the fourth stopper 34 stops the material on the second conveying unit 5 first, and then cooperates with the relevant lifting component on the second conveying unit 5, so that the material is conveyed to the first conveying unit 1 through the conveying unit 2. Wherein the fourth gear stop 34 is movable up and down to selectively stop the material.

Similarly, as shown in fig. 6, the second conveying unit 5 includes: the second jacking component 51 and the second traversing component 52, the second jacking component 51 and the second traversing component 52 are arranged on the second conveying unit 5 and are opposite to the conveying unit 2, the second jacking component 51 is used for jacking the second traversing component 52 to be at the same transmission horizontal plane with the conveying unit 2, and the conveying direction of the second traversing component 52 is the same as the conveying direction of the conveying unit 2 and is used for conveying materials between the conveying unit 2 and the second conveying unit 5.

That is, the second lifting assembly 51 and the second traversing assembly 52 are disposed on the second conveying unit 5, when the material is conveyed between the second conveying unit 5 and the first conveying unit 1, the second lifting assembly 51 is started to lift the second traversing assembly 52 to the same transmission level as the conveying unit 2, and then the second traversing assembly 52 is started to make the conveying direction of the second traversing assembly be the same as the conveying direction of the conveying unit 2, so that the material is conveyed to the first conveying unit 1 through the conveying unit 2, and flexible switching of the material is realized.

When the second conveying unit 5 fails, the material on the second conveying unit 5 needs to be conveyed to the first conveying unit 1 through the conveying unit 2, at this time, the fourth stopper 34 is lifted, the movement and positioning of the material after striking the fourth stopper 34 are stopped, then the second lifting assembly 51 on the second conveying unit 5 lifts the second traversing assembly 52 to the same transmission level as the conveying unit 2, and then the second traversing assembly 52 is started to enable the conveying direction to be the same as the conveying direction of the conveying unit 2, so that the material is driven to move to the conveying unit 2, meanwhile, the conveying unit 2 is started, and the second lifting assembly 51 and the second traversing assembly 52 on the second conveying unit 5 and the fourth stopper 34 are lowered until the material completely enters the conveying unit 2, so as to reset to the initial position.

At this time, the first lifting assembly 12 on the first conveying unit 1 is lifted up to make the first transmission member 133 and the conveying unit 2 on the same transmission plane, at the position where the first conveying unit 1 approaches to the side where the material is about to arrive, the first driving member 4 is started to push the first stopper 31 on the side toward the middle of the conveying unit 2, so that the material stops moving and positioning after striking the fourth stopper 34, then, the first traversing assembly 13 on the first conveying unit 1 is started to make the conveying direction of the first conveying member and the conveying unit 2 the same, then, the first stopper 31 on the side is pushed to the two sides of the conveying unit 2, so that the material is conveyed into the first conveying unit 1, when the material strikes the first stopper 31 on the other side of the first conveying unit 1, the material slowly stops and positions, then, the conveying unit 2 stops moving, the first lifting assembly 12 and the first assembly 13 on the first conveying unit 1 also stops moving and makes the first lifting assembly 12 fall down, so that the material falls on the first conveying unit 1.

The fourth driving member 15 on the first conveying unit 1 is started, the material moves to the next section of first line body 16, and when the material reaches the next section of first line body 16, the first stopper 31 on the other side edge of the first conveying unit 1 is reset, so that at least two first stoppers 31 are stopped on two sides of the first jacking component 12 and the first traversing component 13 respectively.

In summary, the operation of the second conveying unit 5 to the first conveying unit 1 is completed, and the operation principle of the first conveying unit 1 to the second conveying unit 5 is the same, so that the description is not repeated.

Therefore, the conveying line device realizes the mutual transmission of materials among main lines of the conveying line, improves the utilization rate of the materials, has simple structure, clear action, convenient installation and debugging and easy realization of electric programs.

In some embodiments, the second traversing assembly 52 comprises: the sixth driving member 521, the second supporting frame 522 and the second transmission member 523, the second transmission member 523 is disposed on the second supporting frame 522 and is in transmission connection with the sixth driving member 521, and the sixth driving member 521 drives the second transmission member 523 to rotate in the same direction as the conveying direction of the conveying unit 2.

Preferably, the number of the second supporting frames 522 is at least two, and the at least two second supporting frames 522 are used for supporting the conveying materials.

And, the second traversing assembly 52 further comprises: the second limiting plate 524 is disposed outside the second supporting frame 522 opposite to the second supporting frame 522, so as to limit the material transferred between the transferring unit 2 and the second transferring unit 5.

In some embodiments, the second jacking assembly 51 includes: the fifth driving member 511 and the second bottom plate 512, the fifth driving member 511 drives the second bottom plate 512 to lift to the same transmission level as the transmission unit 2, and the second bottom plate 512 is provided with the second traversing assembly 52.

Similar to the first conveying unit 1, the second conveying unit 5 also includes: the plurality of second short rollers 53, the rolling direction of the plurality of second short rollers 53 is the same as the conveying direction of the second conveying unit 5, and the plurality of second short rollers 53 are respectively disposed at both sides of the second conveying unit 5 to form a space for installing the second lifting assembly 51 and the second traversing assembly 52 on the second conveying unit 5.

That is, the plurality of second short rollers 53 are provided on both sides of the second conveying unit 5, respectively, so that a space for placing the second lifting assembly 51 and the second traversing assembly 52 can be formed in the second conveying unit 5, so that the second lifting assembly 51 and the second traversing assembly 52 can work in cooperation with the conveying unit 2, and the conveying work on the second conveying unit 5 can be ensured.

Further, the second conveying unit 5 further includes: the seventh driving member 54, at least two second wire bodies 55 and a plurality of second long rollers 56, the at least two second wire bodies 55 are oppositely arranged, the second long rollers 56 are connected between the at least two second wire bodies 55, the plurality of second short rollers 53 are oppositely arranged on the at least two second wire bodies 55 respectively, the seventh driving member 54 drives the second long rollers 56 and the second short rollers 53 to roll along the conveying direction of the second conveying unit 5, and the third stop 33 is arranged on the first wire body 16.

One end of the second short roller 53 is movably connected to the second wire body 55, and the other end is supported by the second support plate 57 to ensure rolling stability of the second short roller 53, and the second support plate 57 is mounted on the second shoe, and the second bottom plate 512 is provided with a second through slot 58, so that the second support plate 57 passes through the second through slot 58, and when the second jacking component 51 jacks up the second bottom plate 512, interference between the second bottom plate 512 and the second support plate 57 can be avoided.

And, the transfer unit 2 includes: an eighth driver 21, a third wire 22 and a third long roller 23. The eighth driving member 21 drives the third long rollers 23 to roll so as to realize the material transfer between the first conveying unit 1 and the second conveying unit 5.

Further, at least one first conveying unit 1 and at least two second conveying units 5 are provided, the second conveying units 5 are provided on both sides of the first conveying unit 1, and the conveying unit 2 is provided between the first conveying unit 1 and the second conveying unit 5 for conveying the material between the conveying unit 2 and the second conveying unit 5.

In the present embodiment, the number of first conveying units 1 is one, the number of second conveying units 5 is two, the second conveying units 5 are provided on both sides of the first conveying unit 1, and the conveying unit 2 is provided between the first conveying unit 1 and the second conveying unit 5.

Further, the first conveying unit 1 includes at least two layers of first conveying lines, that is, at least two layers of first conveying lines are designed in the Z-axis direction, and correspondingly, the second conveying unit 5 and the conveying unit 2 are respectively designed with at least two layers of second conveying lines and conveying lines which are matched, so that the material conveying efficiency can be greatly improved.

Therefore, by arranging the movable first stopping devices 31 on two sides of the first conveying unit 1, the stopping state or avoiding state of the first stopping devices 31 can be regulated and controlled according to the conveying condition, when the rear section of the conveying line fails, the excessive materials are difficult to consume, the conveying unit 2 can be used for switching the excessive materials to the first conveying unit 1, wherein the first stopping devices 31 firstly buffer stopping and then avoid, so that the materials are ensured to be conveyed to the first conveying unit 1, and the utilization rate of the materials is improved, and the productivity is improved; similarly, when the front section of the conveying line fails, the material supply of the rear section is insufficient, and at the moment, the excessive material on the first conveying unit 1 can be switched to the rear section of the conveying line through the conveying unit 2, wherein the first stop device 31 is used for avoiding, so that the material on the first conveying unit 1 is conveyed to the conveying line through the conveying unit 2, and the shutdown waiting time of the conveying line is shortened, and the productivity is improved. The first stop 31 effectively solves the problem of material switching among main lines of conveying, and achieves the purpose of reasonable material distribution.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present utility model.

In the description of the present specification, reference to the terms "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples.

While embodiments of the present utility model have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles of the utility model, the scope of which is defined by the claims and their equivalents.

Claims (18)

1. A conveyor line apparatus, comprising:

a first conveying unit (1);

the conveying units (2) are respectively arranged at two sides of the first conveying unit (1);

a stop assembly, the stop assembly comprising: the first stop device (31) is arranged on two sides of the first conveying unit (1), and the first stop device (31) is movable along the conveying direction of the first conveying unit (1) and used for stopping or avoiding.

2. Conveyor line arrangement according to claim 1, characterized in that at least two first stops (31) are provided on both sides of the first conveyor unit (1), respectively, which first stops (31) are relatively movable in the conveying direction of the first conveyor unit (1) for jointly stopping material from the conveyor unit (2).

3. The conveyor line assembly of claim 1, wherein the stop assembly further comprises: the first driving piece (4) drives the first stopper (31) to be movable along the conveying direction of the first conveying unit (1).

4. Conveyor line arrangement according to claim 1, characterized in that the first conveyor unit (1) is provided with first guides (11) on both sides, the first stopper (31) is provided with second guides (311), the first guides (11) are one of a guide rail and a slide, the second guides (311) are the other of a guide rail and a slide, the guide rail and the slide being in guiding engagement.

5. Conveyor line arrangement according to claim 1, characterized in that the first stopper (31) comprises: the first stop main body (312) and the first stop plate (313), the first stop main body (312) is matched with the side edge of the first conveying unit (1) in a moving mode, the first stop plate (313) is arranged on one side of the center of the first stop main body (312) towards the first conveying unit (1) and protrudes out of the first stop main body (312), and the first stop main body (312) is arranged in a protruding mode so that the stop can be carried out after materials of the conveying unit (2) are conveyed to the first conveying unit (1).

6. Conveyor line arrangement according to claim 1, characterized in that the first conveyor unit (1) comprises: the conveying device comprises a first jacking component (12) and a first transverse moving component (13), wherein the first jacking component (12) and the first transverse moving component (13) are arranged on a first conveying unit (1) and are opposite to a conveying unit (2), the first jacking component (12) is used for jacking the first transverse moving component (13) to be in the same transmission horizontal plane with the conveying unit (2), and the conveying direction of the first transverse moving component (13) is the same as the conveying direction of the conveying unit (2) and is used for conveying materials between the conveying unit (2) and the first conveying unit (1).

7. Conveyor line arrangement according to claim 6, characterized in that the first traversing assembly (13) comprises: the conveying device comprises a first conveying unit (2), a second driving piece (131), a first supporting frame (132) and a first transmission piece (133), wherein the first transmission piece (133) is arranged on the first supporting frame (132) and is in transmission connection with the second driving piece (131), and the second driving piece (131) drives the first transmission piece (133) to rotate in the same conveying direction as that of the conveying unit (2).

8. Conveyor line arrangement according to claim 7, characterized in that the first traversing assembly (13) further comprises: the first limiting plate (134) is arranged on the outer side of the first supporting frame (132) relative to the first supporting frame (132) and used for limiting materials conveyed between the conveying unit (2) and the first conveying unit (1).

9. Conveyor line arrangement according to claim 6, characterized in that the first jacking assembly (12) comprises: the third driving piece (121) and the first bottom plate (122), the third driving piece (121) drives the first bottom plate (122) to be lifted to be in the same transmission horizontal plane with the conveying unit (2), and the first bottom plate (122) is provided with the first transverse moving assembly (13).

10. Conveyor line arrangement according to claim 6, characterized in that the first conveyor unit (1) comprises: the conveying device comprises a plurality of first short rollers (14), wherein the rolling direction of the first short rollers (14) is the same as the conveying direction of the first conveying unit (1), and the first short rollers (14) are respectively and oppositely arranged at two sides of the first conveying unit (1) so as to form a space for placing the first lifting assembly (12) and the first transverse moving assembly (13) in the first conveying unit (1).

11. Conveyor line arrangement according to claim 10, characterized in that the first conveyor unit (1) further comprises: fourth driving piece (15), two at least first line bodies (16) and a plurality of first long gyro wheel (17), two at least first line body (16) set up relatively and two at least first line body (16) between be equipped with first long gyro wheel (17), a plurality of first short gyro wheel (14) set up relatively respectively on two at least first line body (16), fourth driving piece (15) drive first long gyro wheel (17) with first short gyro wheel (14) are followed the direction of delivery of first conveying unit (1) is rolled, first fender stopper (31) set up on first line body (16).

12. The conveyor line assembly of claim 1, wherein the stop assembly further comprises: the second stop device (32) is arranged on the first conveying unit (1) and used for stopping or avoiding materials on the first conveying unit (1).

13. The conveyor line assembly of claim 1, further comprising: and the second conveying unit (5), the second conveying unit (5) is arranged at one side of the conveying unit (2), and the conveying unit (2) is used for conveying materials between the first conveying unit (1) and the second conveying unit (5).

14. The conveyor line assembly of claim 13, wherein the stop assembly further comprises: and the third gear stopper (33) is fixedly arranged on one side, far away from the conveying unit (2), of the second conveying unit (5) and is used for stopping materials from the conveying unit (2).

15. The conveyor line assembly of claim 14, wherein the stop assembly further comprises: and the fourth gear stopper (34) is fixedly arranged on the second conveying unit (5) and is used for stopping the materials from the second conveying unit (5).

16. Conveyor line arrangement according to claim 13, characterized in that the second conveyor unit (5) comprises: the second jacking component (51) and the second sideslip component (52), the second jacking component (51) with second sideslip component (52) set up on second conveying unit (5) and with conveying unit (2) set up relatively, second jacking component (51) are used for the jacking second sideslip component (52) to with conveying unit (2) are in same transmission horizontal plane, the direction of delivery of second sideslip component (52) with the direction of delivery of conveying unit (2) is the same and is used for conveying the material between conveying unit (2) and second conveying unit (5).

17. Conveyor line arrangement according to claim 16, characterized in that the second conveyor unit (5) comprises: the rolling directions of the second short rollers (53) are the same as the conveying direction of the second conveying unit (5), and the second short rollers (53) are respectively and oppositely arranged at two sides of the second conveying unit (5) so as to form a space for installing the second jacking component (51) and the second transverse moving component (52) in the second conveying unit (5).

18. Conveyor line arrangement according to claim 13, characterized in that the first conveyor unit (1) is at least one and the second conveyor units (5) are at least two, the second conveyor units (5) being arranged on both sides of the first conveyor unit (1), the conveyor unit (2) being arranged between the first conveyor unit (1) and the second conveyor unit (5) for conveying material between the conveyor unit (2) and the second conveyor unit (5).

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